Efficient Implication - Based Untestable Bridge Fault Identifier
نویسندگان
چکیده
This paper presents a novel, low cost technique based on implications to identify untestable bridging faults in sequential circuits. Sequential symbolic simulation [1] is first performed, as a preprocessing step, to identify nets which are uncontrollable to a specific logic value. Then, an implication-based analysis is carried out for each fault to determine if a particular fault is testable or not. We also use information about the untestable stuck-at faults to filter out some bridges early in the analysis process. The application of our technique to ISCAS ’89 sequential benchmark circuits and a few industrial circuits showed that a large number of untestable bridges could be identified at a low cost, both in terms of memory and execution time.
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References 1] M. Abramovici and P. R. Menon. A practical approach to fault simulation and test generation for bridging faults. IEEE Transactions on Computers , C-34:658{663, 1985. 2] J. M. Acken and S. D. Millman. Accurate mod-eling and simulation of bridging faults. In Pro-Campbell. Double-bridge test structure for the evaluation of type, size and density of spot defects. foreach feedback brid...
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